CN109167232B - Aluminum foil nailing machine lead feeding device - Google Patents

Abstract

The invention is applicable to the technical field of feeding devices, and provides a lead feeding device of an aluminum foil nailing machine, which comprises a feeding mechanism, a transmission mechanism, a distributing mechanism, a material taking mechanism and a discharging mechanism; the feeding mechanism comprises a vibration disc and a flat feeding assembly; the transmission mechanism comprises a first transmission assembly and a second transmission assembly, the material distributing mechanism is positioned between the feeding mechanism and the material taking mechanism, and the material distributing mechanism is connected with the second transmission assembly; the material taking mechanism comprises a material taking turntable and a plurality of material taking components which are sequentially arranged along the edge of the material taking turntable; the material taking turntable is positioned at the discharge end of the horizontal conveying assembly and driven to rotate by the first transmission assembly, and the discharging mechanism comprises a detection assembly and a defective product collecting assembly; the detection assembly is electrically connected with an external controller, is arranged on the main shaft shell of the material taking turntable and is connected with the second transmission assembly, and the automatic processing and production can be performed, so that the production efficiency is improved; the overall performance is optimized, and the yield of subsequent processing production is improved.

Description

Aluminum foil nailing machine lead feeding device

Technical Field

The invention belongs to the technical field of feeding devices, and particularly relates to a lead feeding device of an aluminum foil nailing machine.

Background

The aluminum foil nailing machine is a machine which processes common guide pins (leads) through various procedures and coats the guide pins with aluminum foils, and in order to be matched with different products, the aluminum foil nailing machine is always used for continuously improving the performance and the structure of the products in the development process so as to meet the demands of different customers.

The aluminum foil nailing machine in the prior art is complex in structure, the relative feeding device is complex in structure, and because the machine is large in size, some working procedures of the feeding device are manually assisted, automation is difficult to realize, and a device for detecting the guide pin quality working procedure and then removing defective products during feeding is absent on the feeding device of the aluminum foil nailing machine in the prior art.

Disclosure of Invention

The invention provides a lead feeding device of an aluminum foil nailing machine, and aims to solve the problems that in the prior art, automation is difficult to realize, the quality of a guide pin is lack in feeding, and a discharging device is absent.

The invention is realized in such a way that the aluminum foil nailing machine lead feeding device comprises a feeding mechanism, a transmission mechanism, a distributing mechanism, a material taking mechanism and a discharging mechanism; the feeding mechanism comprises a vibration disc and a flat feeding assembly; the transmission mechanism comprises a first transmission assembly and a second transmission assembly, the material distributing mechanism is positioned between the feeding mechanism and the material taking mechanism, and the material distributing mechanism is connected with the second transmission assembly; the material taking mechanism comprises a material taking turntable and a plurality of material taking assemblies which are sequentially arranged along the edge of the material taking turntable; the material taking turntable is positioned at the discharge end of the horizontal conveying assembly and driven to rotate by the first transmission assembly, and the secondary mechanism comprises a detection assembly and a defective product collection assembly; the detection assembly is electrically connected with an external controller, and is arranged on the main shaft shell of the material taking turntable and connected with the second transmission assembly.

Still further, the flat feeding assembly comprises a linear feeder, the linear feeder is electrically connected with an external controller, the linear feeder is fixed on the frame, a feeding guide rail and a supporting plate are arranged above the linear feeder, the feeding guide rail is fixed on the linear feeder through a guide rail fixing frame and is connected with an outlet of the vibration disc, and the supporting plate is positioned below the feeding guide rail and is fixed on the frame through a supporting strip fixing frame.

Still further, first drive assembly includes drive mobile jib and driven lever, drive mobile jib and driven lever are fixed in the frame through different bearings and bearing frame respectively, drive mobile jib one end is provided with first bevel gear, driven lever one end is fixed with the main shaft of getting the material carousel, and the other end is provided with the second bevel gear, second bevel gear and first bevel gear meshing.

Still further, the second drive assembly includes cam, rocking arm and connecting rod, the cam is fixed on outside transfer line, the rocking arm passes through the swing arm seat to be fixed in the frame, rocking arm one end and cam cooperation, the other end is connected with the one end rotation of connecting rod, feed mechanism and detection assembly are connected to the other end of connecting rod.

Further, the material distributing mechanism comprises a material distributing fixing seat, the material distributing fixing seat is fixed on a main shaft shell of the material taking rotary disc, a material distributing bracket and a material distributing sliding block are arranged on the material distributing fixing seat, and the material distributing bracket is fixedly connected with the material distributing fixing seat; the material distributing slide block is in sliding connection with the material distributing fixed seat and is driven by the second transmission assembly, a first clamping arm and a second clamping arm are respectively arranged on the material distributing support through two rotating shafts, a notch is arranged on the first clamping arm, an arc-shaped bulge is arranged on the second clamping arm, a front adjusting block and a rear adjusting block are fixedly arranged on the material distributing slide block, and a clamping arm opening and closing adjusting block and a material distributing stop block are arranged on the front adjusting block and the rear adjusting block; the clamping arm opening and closing adjusting block is fixedly connected with the first clamping arm, and the material distributing stop block is positioned at the front sides of the tail ends of the first clamping arm and the second clamping arm; the first holding clamping arm, the second holding clamping arm and the material distributing stop block are positioned at the discharging end of the horizontal conveying assembly.

Still further, get material subassembly includes gets material station block, it fixes on getting material carousel to get material station block, it is fixed to be provided with first magnet to get material station block middle part, it is provided with the thimble to get material station block both ends, the thimble is on same straight line with first magnet, thimble lower extreme fixed connection thimble locking piece, the thimble locking piece sets up in getting material station block and getting the recess between the material carousel, be connected with the extension spring on the thimble locking piece, the extension spring other end is fixed on getting material carousel.

Still further, the detection subassembly is including detecting the fixing base, it fixes on the main shaft shell of getting the material carousel to detect the fixing base, it detects the support to be provided with on the fixing base, detect support and detect fixing base sliding connection, it is provided with the briquetting to detect support one end, the briquetting is located and gets the material carousel top, briquetting both sides are fixed with the conducting strip, the conducting strip passes through the outside short circuit detection device of wire connection, outside short circuit detection device electric connection outside controller, it is provided with the pendulum rod through the pivot to detect fixing base one side, pendulum rod one end fixed connection ejector pad, the ejector pad is driven by second transmission subassembly, the pendulum rod other end contacts with the boosting piece that detects support one side.

Still further, the defective goods collection subassembly includes collection passageway, cylinder and collection box, collection passageway and cylinder are fixed in the frame through the fixed bolster respectively, the collection box is located collection passageway exit below, one side of cell-phone passageway entrance is provided with two through-holes, the cylinder is fixed for the slope and the piston end is provided with two push rods through the fixed plate, two the push rod top all is provided with the second magnet.

The invention has the beneficial effects that: the invention can finish the work of discharging, distributing, taking and feeding without manual auxiliary operation in the feeding process, can realize automatic processing and production and improves the production efficiency; and be provided with detection component and row's subassembly, detect the quality of guide pin at the in-process of getting material carousel pay-off, if be the defective product then discharge through row's subassembly, optimized holistic performance, improved the yields of follow-up processing production.

Drawings

Fig. 1 is a schematic view of a first angle structure of a lead feeding device of an aluminum foil nailing machine.

Fig. 2 is a schematic diagram of a second angle structure of a lead feeding device of an aluminum foil nailing machine.

Fig. 3 is a schematic view of a third angle structure of a lead feeding device of an aluminum foil nailing machine.

Fig. 4 is a fourth angular structure schematic diagram of a lead feeding device of an aluminum foil nailing machine.

Fig. 5 is a schematic view of a fifth angle structure of a lead feeding device of an aluminum foil nailing machine.

Fig. 6 is an enlarged view of a portion of fig. 4 according to the present invention.

Fig. 7 is a partial enlarged view of the present invention at B in fig. 4.

Fig. 8 is a partial enlarged view of the present invention at C in fig. 4.

Fig. 9 is a partial enlarged view of the present invention at D in fig. 5.

In the figure: 100-a feeding mechanism; 110-vibrating plate; 120-a flat feed assembly; 121-a linear feeder; 122-a feed rail; 123-supporting plates; 200-transmission mechanism; 210-a first transmission assembly; 211-driving the main lever; 212-a driven rod; 213-a first bevel gear; 214-a second bevel gear; 220-a second transmission assembly; 221-a cam; 222-rocker arms; 223-connecting rod; 300-a material distributing mechanism; 301-a material distributing fixing seat; 302, a material distributing bracket; 303-a material distributing slide block; 304-a first clamping arm; 305-a second clamping arm; 306-front and rear adjusting blocks; 307-clamping arm opening and closing adjusting blocks; 308-a material distributing stop block; 400-a material taking mechanism; 410-a material taking rotary table; 420-a material taking assembly; 421-a material taking station block; 422-a first magnet; 423-thimble; 424-thimble locking block; 425-tension springs; 500-arranging a mechanism; 510-a detection component; 511-a holder; 512-detection rack; 513-briquetting; 524-conductive sheet; 515-swinging rod; 516-pushing blocks; 520-a reject collection assembly; 521-collecting channel; 522-cylinder; 523-collection box; 524-push rod; 525-a second magnet.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1-9, a lead feeding device of an aluminum foil nailing machine comprises a feeding mechanism 100, a transmission mechanism 200, a distributing mechanism 300, a material taking mechanism 400 and a discharging mechanism 500; the feeding mechanism 100 comprises a vibration plate 110 and a flat feeding assembly 120; the transmission mechanism 200 comprises a first transmission assembly 210 and a second transmission assembly 220; the material distributing mechanism 300 is positioned between the feeding mechanism 100 and the material taking mechanism 400, and the material distributing mechanism 300 is connected with the second transmission assembly 220; the material taking mechanism 400 includes a material taking turntable 410, and a plurality of material taking assemblies 420 sequentially arranged along the edge of the material taking turntable 410; the material taking turntable 410 is positioned at the material discharging end of the horizontal conveying assembly 120 and is driven to rotate by the first transmission assembly 210, and the discharging mechanism 500 comprises a detecting assembly 510 and a defective product collecting assembly 520; the detecting component 510 is electrically connected to an external controller (disposed on other devices on the same assembly line, not shown in the drawing), the detecting component 510 is disposed on the spindle housing of the material taking turntable 410 and connected to the second transmission component 220, and the defective product collecting component 520 is located at the lower right of the material taking mechanism 400.

Implementation of the embodimentsExample two

The flat feeding assembly 120 comprises a linear feeder 121, the linear feeder 121 is electrically connected with an external controller, the linear feeder 121 is fixed on a frame (not shown in the figure and used for installing a fixing assembly), a feeding guide rail 122 and a supporting plate 123 are arranged above the linear feeder 121, the feeding guide rail 122 is fixed on the linear feeder 121 through a guide rail fixing frame and is connected with an outlet of the vibration disc 110, the supporting plate 123 is positioned below the feeding guide rail 122 and is fixed on the frame through a supporting strip fixing frame, after a guide pin comes out from the vibration disc 110, the guide pin vertically moves on the feeding guide rail 122 under the action of the linear feeder 121, and the supporting plate 123 is used for supporting the lower end of the guide pin and plays a supporting role.

Example III

The first transmission assembly 210 includes a driving main rod 211 and a driven rod 212, where the driving main rod 211 and the driven rod 212 are fixed on the frame through different bearings and bearing seats, one end of the driving main rod 211 is provided with a first bevel gear 213, the other end is in transmission connection with an external first driving device (not shown in the figure), one end of the driven rod 212 is fixed with the main shaft of the material taking turntable 410, the other end is provided with a second bevel gear 214, and the second bevel gear 214 is meshed with the first bevel gear 213.

Example IV

The second transmission assembly 220 comprises a cam 221, a rocker arm 222 and a connecting rod 223, wherein the cam 221 is fixed on an external transmission rod and is driven to rotate by an external second driving device (neither the transmission rod nor the second driving device are shown), the rocker arm 222 is fixed on the frame through a rocker arm seat, one end of the rocker arm 222 is matched with the cam 221, the other end of the rocker arm 222 is rotationally connected with one end of the connecting rod 223, and the other end of the connecting rod 223 is connected with the material distributing mechanism 300 and the detecting assembly 410; when the cam 221 rotates, the convex point contacts with the rocker arm 222 and pushes the rocker arm 222 forwards, the connecting end of the rocker arm 222 and the connecting rod 223 pushes the connecting rod 223 forwards, when the convex point of the cam 221 leaves the rocker arm 222, the rocker arm 222 resets to drive the connecting rod 223 to return to reset, and the connecting rod 223 drives the material distributing mechanism 300 and the detecting component 410 to mechanically move through forward and backward actions.

Example five

The material distributing mechanism 300 comprises a material distributing fixing seat 301, wherein the material distributing fixing seat 301 is fixed on a main shaft shell of a material taking rotary disc 410, a material distributing bracket 302 and a material distributing sliding block 303 are arranged on the material distributing fixing seat 301, and the material distributing bracket 302 is fixedly connected with the material distributing fixing seat 301; the material distributing slide block 303 is slidably connected with the material distributing fixed seat 301 and driven by the second transmission assembly 220, the material distributing bracket 302 is respectively provided with a first holding arm 304 and a second holding arm 305 through two rotating shafts, the first holding arm 304 is provided with a notch, the second holding arm 305 is provided with an arc-shaped bulge, the arc-shaped bulge is matched with the notch, the arc-shaped bulge can rotate in the notch, the material distributing slide block 303 is fixedly provided with a front adjusting block 306 and a rear adjusting block 306, and the front adjusting block 306 is provided with a holding arm opening and closing adjusting block 307 and a material distributing stop block 308; the clamping arm opening and closing adjusting block 307 is fixedly connected with the first clamping arm 304, and the material separating stop block 308 is positioned at the front sides of the tail ends of the first clamping arm 304 and the second clamping arm 305; the first holding arm 304, the second holding arm 305 and the material separating block 308 are located at the discharge end of the horizontal conveying assembly 120.

When the second transmission assembly 220 drives the material distribution slider 303 to push forwards, the material distribution slider 303 drives the clamping arm opening and closing adjusting block 307 and the material distribution stop block 308 to push forwards through the front and rear adjusting block 306, when the clamping arm opening and closing adjusting block 307 pushes forwards, the lower end of the first clamping arm 304 approaches to the lower end of the second clamping arm 205, and as the lower end of the first clamping arm 304 approaches to the second clamping arm 305 through the cooperation of the notch and the arc-shaped bulge, the lower end of the second clamping arm 305 approaches to the lower end of the first clamping arm 204 until the first clamping arm 304 and the second clamping arm 305 are closed, and the guide pin on the flat conveying assembly 120 is transferred to the lower parts of the first clamping arm 304 and the second clamping arm 305 to clamp; the material separating block 308 also follows the front-back adjusting block 306 to move forward and block the front of the closing position of the first holding arm 304 and the second holding arm 305, so as to block the guide pin on the horizontal feeding assembly 120, and prevent the guide pin from being removed in advance by the material taking mechanism 400.

ExamplesSix kinds of

The material taking assembly 420 comprises a material taking working position block 421, the material taking working position block 421 is fixed on the material taking turntable 410, a first magnet 422 is fixedly arranged in the middle of the material taking working position block 421, two ends of the material taking working position block 421 are provided with ejector pins 423, the ejector pins 423 and the first magnet 422 are in the same straight line, the ejector pins 423 are in clearance fit with the material taking working position block 421, the lower ends of the ejector pins 423 are fixedly connected with an ejector pin locking block 424, the ejector pin locking block 424 is arranged in a groove between the material taking working position block 421 and the material taking turntable 410, the ejector pin locking block 424 can slide in the groove through external force, a tension spring 425 is connected to the ejector pin locking block 424, the other end of the tension spring 425 is fixed on the material taking turntable 410, when the first transmission assembly 210 drives the material taking turntable 410 to rotate, the first magnet 422 adsorbs a guide pin 421 on the material taking position block 421 at the moment through the discharge end of the flat feeding assembly 120, the first magnet 422 and the guide pin are in a non-contact magnetic attraction mode, when the material taking assembly 420 adsorbed with the guide pin assembly 420 rotates under the action of the guide pin locking block 420 between the material taking position block 421 and the material taking turntable 410, and the guide pin assembly 420 is pulled out of the material taking assembly under the suction device under the action of the guide pin assembly 423, and the guide pin assembly 423 is arranged in the position of the material taking assembly, and the material taking assembly is not pulled by the guide pins under the suction.

Example seven

The detection assembly 510 comprises a detection fixing seat 511, the detection fixing seat 511 is fixed on a main shaft shell of the material taking turntable 410, a detection support 512 is arranged on the detection fixing seat 511, the detection support 512 is in sliding connection with the detection fixing seat 511, the detection support 512 can slide on the detection fixing seat 511 under the action of external force, one end of the detection support 512 is provided with a pressing block 513, the pressing block 513 is located above the material taking turntable 410, conducting strips 514 are fixed on two sides of the pressing block 513, the conducting strips 514 are connected with an external short circuit detection device (not shown in the figure) through wires, the external short circuit detection device is electrically connected with an external controller, one side of the detection fixing seat 511 is provided with a swinging rod 515 through a rotating shaft, one end of the swinging rod 515 is fixedly connected with a push block 516, the push block 516 is driven by the second transmission assembly 220, and the other end of the swinging rod 515 is in contact with a boosting block on one side of the detection support 512.

Under the operation of the second transmission assembly 220, the push block 516 pushes the swing rod 515 to push the detection support 512 upwards, the pressing block 513 and the conducting strip 514 move upwards along with the detection support 512, when the material taking assembly 420 with the guide pins adsorbed thereon rotates below the pressing block 513, the second transmission assembly 220 resets the push block 516 and the swing rod 515, the pressing block 513 and the conducting strip 514 push down along with the detection support 512, a spring is arranged between the detection support 512 and the detection fixing seat 511 for detecting the resetting of the support 512, the conducting strip 514 contacts with the guide pins, an external short circuit detection device judges a short circuit, if the guide pins have bending or defect (defective products), namely can not be in good contact with the conducting strip 514, the external short circuit detection device detects the short circuit and then sends a signal to an external controller, and when the material taking assembly 420 (station block with the defective products) reaches a blanking position, the external controller controls the external blanking device not to perform blanking work.

Example eight

The defective product collecting assembly 520 comprises a collecting channel 521, an air cylinder 522 and a collecting box 523, wherein the collecting channel 521 and the air cylinder 522 are respectively fixed on a rack through fixing brackets, the collecting box 523 is positioned below an outlet of the collecting channel 521, an inlet of the collecting channel 521 is on the same horizontal line with the material taking rotary table 410, when the rotary table 410 rotates, the material taking assembly 420 passes through the inlet of the collecting channel 521, one side of the inlet of the mobile phone channel 521 is provided with two through holes, the air cylinder 522 is obliquely fixed, a piston end of the air cylinder 522 is provided with two push rods 524 through fixing plates, the two push rods 524 are respectively matched with the two through holes, when the piston end of the air cylinder 522 pushes out, the two push rods 524 respectively pass through the two through holes and are in contact with the rotated material taking assembly 420, and the tops of the two push rods 524 are respectively provided with second magnets.

When detecting assembly 510 detects the defective product guide pin, the unloading work is not carried out to outside unloading subassembly, adsorb the material taking assembly 420 of defective product and continue to rotate to defective product collection subassembly 520 department, the piston end of cylinder 522 promotes two push rods 524 that are equipped with second magnet 525 and pass two through-holes, because second magnet 525 is contact magnetism with the defective product and inhales, the suction is greater than the non-contact magnetism of material taking assembly 420 and inhale, therefore second magnet 525 can adsorb the defective product from material taking assembly 420, when cylinder 522 piston end resets, the second magnet 525 that adsorbs the defective product resets along with push rod 524, when the defective product passes through two through-holes department, the defective product is blocked off by collecting channel 521, drop to collecting box 523 through collecting channel 521 after having broken away from second magnet 525.

The working principle of the invention is as follows: the guide pins are moved forward under the action of the vibration disc 110 and the flat conveying component 120, the guide pins at the discharging end of the flat conveying component 120 are separated by the material distributing mechanism, only a single guide pin is allowed to pass through the material distributing mechanism 3 at a time, the guide pins passing through the material distributing mechanism 3 are adsorbed by the material taking component 420 rotating to the discharging end of the flat conveying component 120, the material taking component 420 with the adsorbed guide pins rotates to the position below the detecting component 510, the detecting component 510 contacts the guide pins, whether the guide pins are bent or defective is judged by the external short circuit detecting device, namely whether the guide pins are defective or not, if the guide pins are not defective, the material taking component 420 with the adsorbed guide pins rotates to the discharging position, the external discharging device discharges the guide pins, if the guide pins are defective, the material taking component 420 with the adsorbed defective products rotates to the discharging position, the external discharging device does not do discharging work, the material taking component 420 with the adsorbed defective products continues to rotate to the defective product collecting component 520, and the defective product collecting component 520 takes down and collects the defective products.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. The lead feeding device of the aluminum foil nailing machine is characterized by comprising a feeding mechanism, a transmission mechanism, a distributing mechanism, a material taking mechanism and a discharging mechanism; the feeding mechanism comprises a vibration disc and a flat feeding assembly; the transmission mechanism comprises a first transmission assembly and a second transmission assembly, the material distributing mechanism is positioned between the feeding mechanism and the material taking mechanism, and the material distributing mechanism is connected with the second transmission assembly; the material taking mechanism comprises a material taking turntable and a plurality of material taking assemblies which are sequentially arranged along the edge of the material taking turntable; the material taking turntable is positioned at the discharge end of the horizontal conveying assembly and driven to rotate by the first transmission assembly, and the secondary mechanism comprises a detection assembly and a defective product collection assembly; the detection assembly is electrically connected with an external controller, and is arranged on the main shaft shell of the material taking turntable and connected with the second transmission assembly.

2. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the flat feeding assembly comprises a linear feeder, the linear feeder is electrically connected with an external controller, the linear feeder is fixed on a frame, a feeding guide rail and a supporting plate are arranged above the linear feeder, the feeding guide rail is fixed on the linear feeder through a guide rail fixing frame and is connected with an outlet of a vibration disc, and the supporting plate is positioned below the feeding guide rail and is fixed on the frame through a supporting strip fixing frame.

3. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the first transmission assembly comprises a driving main rod and a driven rod, the driving main rod and the driven rod are respectively fixed on the frame through different bearings and bearing seats, one end of the driving main rod is provided with a first bevel gear, one end of the driven rod is fixed with a main shaft of the material taking rotary table, the other end of the driven rod is provided with a second bevel gear, and the second bevel gear is meshed with the first bevel gear.

4. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the second transmission assembly comprises a cam, a rocker arm and a connecting rod, the cam is fixed on an external transmission rod, the rocker arm is fixed on the frame through a rocker arm seat, one end of the rocker arm is matched with the cam, the other end of the rocker arm is rotationally connected with one end of the connecting rod, and the other end of the connecting rod is connected with the material distributing mechanism and the detecting assembly.

5. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the material distributing mechanism comprises a material distributing fixing seat, the material distributing fixing seat is fixed on a main shaft shell of the material taking rotary disc, a material distributing bracket and a material distributing sliding block are arranged on the material distributing fixing seat, and the material distributing bracket is fixedly connected with the material distributing fixing seat; the material distributing slide block is in sliding connection with the material distributing fixed seat and is driven by the second transmission assembly, a first clamping arm and a second clamping arm are respectively arranged on the material distributing support through two rotating shafts, a notch is arranged on the first clamping arm, an arc-shaped bulge is arranged on the second clamping arm, a front adjusting block and a rear adjusting block are fixedly arranged on the material distributing slide block, and a clamping arm opening and closing adjusting block and a material distributing stop block are arranged on the front adjusting block and the rear adjusting block; the clamping arm opening and closing adjusting block is fixedly connected with the first clamping arm, and the material distributing stop block is positioned at the front sides of the tail ends of the first clamping arm and the second clamping arm; the first holding clamping arm, the second holding clamping arm and the material distributing stop block are positioned at the discharging end of the horizontal conveying assembly.

6. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the material taking assembly comprises a material taking station block, the material taking station block is fixed on a material taking rotary table, a first magnet is fixedly arranged in the middle of the material taking station block, two ends of the material taking station block are provided with ejector pins, the ejector pins are in the same straight line with the first magnet, the lower ends of the ejector pins are fixedly connected with ejector pin locking blocks, the ejector pin locking blocks are arranged in grooves between the material taking station block and the material taking rotary table, tension springs are connected to the ejector pin locking blocks, and the other ends of the tension springs are fixed on the material taking rotary table.

7. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the detection assembly comprises a detection fixing seat, the detection fixing seat is fixed on a main shaft shell of the material taking rotary table, a detection support is arranged on the detection fixing seat, the detection support is in sliding connection with the detection fixing seat, one end of the detection support is provided with a pressing block, the pressing block is located above the material taking rotary table, conducting plates are fixed on two sides of the pressing block, the conducting plates are connected with an external short circuit detection device through wires, the external short circuit detection device is electrically connected with an external controller, one side of the detection fixing seat is provided with a swinging rod through a rotating shaft, one end of the swinging rod is fixedly connected with a pushing block, the pushing block is driven by a second transmission assembly, and the other end of the swinging rod is in contact with a boosting block on one side of the detection support.

8. The aluminum foil nailing machine lead feeding device according to claim 1, wherein the inferior goods collecting assembly comprises a collecting channel, an air cylinder and a collecting box, the collecting channel and the air cylinder are respectively fixed on the frame through fixing supports, the collecting box is located below an outlet of the collecting channel, two through holes are formed in one side of an inlet of the collecting channel, the air cylinder is obliquely fixed, two push rods are arranged at piston ends through fixing plates, and second magnets are arranged at the tops of the two push rods.